More than defence: primary roles for cyanogenic glucosides. The tropical crop, sorghum, produces toxic cyanide to avoid being eaten by herbivores, but this diverts resources away from growth and reproduction. Using non-toxic sorghum mutants, this project seeks to explain how cyanide production is regulated and enhance agricultural efficiency in the face of climate change.
Enhancing and manipulating C4 photosynthesis. To meet the challenge of increasing crop yield for a burgeoning world population, it has become apparent that photosynthetic capacity must be increased per unit leaf area to improve yield potential. Plants with the C4 photosynthetic pathway are major contributors to world food production and bioenergy supply. The aim of this study is to explore ways of enhancing C4 photosynthesis using directed molecular modifications of Setaria viridis, the model mo ....Enhancing and manipulating C4 photosynthesis. To meet the challenge of increasing crop yield for a burgeoning world population, it has become apparent that photosynthetic capacity must be increased per unit leaf area to improve yield potential. Plants with the C4 photosynthetic pathway are major contributors to world food production and bioenergy supply. The aim of this study is to explore ways of enhancing C4 photosynthesis using directed molecular modifications of Setaria viridis, the model monocot C4 species, and through high throughput fluorescence imaging of photosynthesis in Setaria italica accessions. This will provide new insights into rate limiting steps of C4 photosynthesis needed for C4 crop improvement.Read moreRead less
Australia’s native sorghums. This project aims to investigate the biological mechanisms driving the evolution of toxic cyanogenic glucosides by exploiting the natural diversity of Australian wild relatives of the crop sorghum that are adapted to different environments. Wild crop relatives are an important source of traits for improving their cultivated counterparts. Analysing the diversity and evolution of Australia’s 17 native sorghum species will provide new understanding of how plants have ad ....Australia’s native sorghums. This project aims to investigate the biological mechanisms driving the evolution of toxic cyanogenic glucosides by exploiting the natural diversity of Australian wild relatives of the crop sorghum that are adapted to different environments. Wild crop relatives are an important source of traits for improving their cultivated counterparts. Analysing the diversity and evolution of Australia’s 17 native sorghum species will provide new understanding of how plants have adapted to environmental challenges across diverse Australian environments. This should provide significant benefit by providing new resources for plant breeders to produce more climate-resilient crops.Read moreRead less